CN110719254A - Multi-protocol integrated Beidou position service system and service method - Google Patents

Abstract

The invention relates to the technical field of Beidou positioning equipment, in particular to a multi-protocol integrated Beidou position service system and a service method. The system comprises: the Beidou positioning device access end is used for receiving the data to be analyzed sent by the Beidou positioning device, calling a prestored decoder corresponding to the type of the device to decode the data to be analyzed, obtaining a data packet to be stored and sending the data packet to the server end; the Beidou positioning device is also used for editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device; the server side is used for receiving and storing the data packet; and the Beidou positioning device is also used for receiving a user query instruction and sending the user query instruction to the Beidou positioning device access end. The Beidou positioning device access end is used for receiving the difference data of different Beidou positioning devices, and the difference data is output/stored after encoding and decoding, so that the conversion from the difference to the commonality is realized, convenience is provided for subsequent logic operation, and the Beidou positioning device access end has the advantages of improving the efficiency and saving the cost.

Description

Multi-protocol integrated Beidou position service system and service method

Technical Field

The invention relates to the technical field of Beidou positioning equipment, in particular to a multi-protocol integrated Beidou position service system and a service method.

Background

Along with the completion of the construction of the third Beidou basic system, the Beidou positioning system formally provides service for the world, the number of intelligent positioning terminal devices based on the Beidou navigation satellite in the market is more and more, such as an intelligent bracelet, an intelligent watch, a positioner and the like, the patent with the patent number of 201910375747.8 discloses a sewage monitoring device and a monitoring method based on the Beidou navigation integration, the types of devices related to the Beidou positioning are all-in-one, the protocols of application layers are different, and application platforms with characteristics are derived around the positioning terminal. In the basic mode, not only an equipment access module A is developed for the intelligent positioning equipment A under the flag of company A to analyze and store data, but also an application A is developed to realize specific service logic; the company B develops an equipment access module B for the flagged intelligent positioning equipment B to analyze and store data, and then develops an application B to realize specific service logic; the same procedure is also applied to C.

Existing location-based applications suffer from the following drawbacks: 1. the mode of single equipment and single application has a large amount of redundant implementation in the development process. For example, different companies must repeatedly implement the device data encoding and decoding work when developing applications based on the same intelligent positioning device. The companies fight each other, common operations cannot be extracted, energy cannot be concentrated on the realization of business logic, and the waste of manpower and financial resources is caused. 2. The position data are stored and managed in a scattered mode, and information in the data cannot be further mined by utilizing a big data analysis technology.

Therefore, a multi-protocol integrated Beidou position service system and a multi-protocol integrated Beidou position service method are urgently needed.

Disclosure of Invention

The invention provides a multi-protocol integrated Beidou position service system and a multi-protocol integrated Beidou position service method, so that data uploaded by various Beidou positioning devices can be analyzed and stored, the cost is saved, and the efficiency is improved.

In one aspect of the present invention, a multi-protocol integrated beidou location service system is provided, which includes:

the Beidou positioning device access end is used for receiving data to be analyzed, which are sent by the Beidou positioning device, the data to be analyzed comprise the device type of the Beidou positioning device, a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, the data packet is stored, and the data packet is sent to the server end; the Beidou positioning device is also used for receiving a user query instruction, editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device;

the server side is used for receiving and storing the data packet; and the Beidou positioning device is also used for receiving a user query instruction and sending the user query instruction to the Beidou positioning device access end.

Further, big dipper positioner access end includes:

the adaptive module is used for receiving data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module;

the decoding module is used for prestoring a plurality of types of decoders, calling the decoder corresponding to the device type to decode the data to be analyzed and obtain a data packet when the data to be analyzed and the device type are received, and sending the data packet to the storage module and the server side;

the storage module is used for receiving and storing the data packet;

and the coding module is used for prestoring a plurality of types of coders, editing the user inquiry instruction into a user inquiry signal which can be identified by the Beidou positioning device by using the coders when receiving the user inquiry instruction, and sending the user inquiry signal to the Beidou positioning device.

Furthermore, the Beidou positioning device access end is in wireless connection with the server end.

Further, the Beidou positioning device access end is electrically connected with the server end in any one of a 2G mode, a 3G mode, a 4G mode or a WIFI mode.

Further, the data packet is any one of a position data packet, a heartbeat data packet, an electric quantity data packet or a blood pressure data packet.

In a second aspect of the present invention, there is provided a method for implementing a multi-protocol integrated beidou location service based on the system as described above, including the following steps:

the Beidou positioning device access end receives data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet;

the Beidou positioning device access end stores the data packet and sends the data packet to the server end;

the server receives and stores the data packet;

the server side receives a user query instruction and sends the user query instruction to the Beidou positioning device access end;

the Beidou positioning device access end receives the user query instruction, edits the user query instruction into a user query signal which can be identified by the Beidou positioning device, and sends the user query signal to the Beidou positioning device.

Further, big dipper positioner incoming end includes adaptation module, decoding module, storage module and coding module, wherein:

the adaptation module receives data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module;

the decoding module prestores a plurality of types of decoders, and when data to be analyzed and the device type are received, the decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, and the data packet is sent to the storage module and the server side;

the storage module receives and stores the data packet;

the coding module prestores a plurality of types of coders, and when a user query instruction is received, the coder is used for editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device.

Compared with the prior art, the multi-protocol integrated Beidou position service system and the multi-protocol integrated Beidou position service method provided by the invention have the following advantages that:

the invention replaces a single-protocol single-application mode with a single-protocol single-adapter mode, and completes the common operation of coding and decoding the equipment data in the access end of the Beidou positioning device, the access end of the Beidou positioning device receives the differential data of different Beidou positioning devices, and outputs (stores) the standard operation data after coding and decoding, thereby realizing the conversion from the differential data to the common data, shielding the concept of the protocol for the subsequent logic operation and the query operation of third-party application, and having the advantages of improving the efficiency and saving the cost.

The foregoing description is only an overview of the technical solutions of the present invention, and the embodiments of the present invention are described below in order to make the technical means of the present invention more clearly understood and to make the above and other objects, features, and advantages of the present invention more clearly understandable.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

FIG. 1 is a device connection block diagram of a multi-protocol integrated Beidou position service system in an embodiment of the invention;

fig. 2 is a step diagram of a multi-protocol integrated beidou location service method in the embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

It will be understood by those skilled in the art that, unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. It will be further understood that terms, such as those defined in commonly used dictionaries, should be interpreted as having a meaning that is consistent with their meaning in the context of the prior art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein.

The embodiment provides a multi-protocol integrated Beidou position service system and a multi-protocol integrated Beidou position service method.

As shown in fig. 1, the multi-protocol integrated beidou location service system of this embodiment includes:

the Beidou positioning device access end is used for receiving data to be analyzed, which are sent by the Beidou positioning device, the data to be analyzed comprise the device type of the Beidou positioning device, a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, the data packet is stored, and the data packet is sent to the server end; the Beidou positioning device is also used for receiving a user query instruction, editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device; big dipper positioner in this embodiment can be like intelligent bracelet, intelligent wrist-watch and locator etc.. The big dipper positioner access end can receive the data of treating the analysis that a plurality of big dipper positioner sent to handle these data respectively, and this embodiment uses a big dipper positioner as an example.

The server side is used for receiving and storing the data packet; and the Beidou positioning device is also used for receiving a user query instruction and sending the user query instruction to the Beidou positioning device access end.

The multi-protocol integrated Beidou position service system of the embodiment utilizes a single-protocol single adapter mode to replace a single-protocol single application mode, the common operation of equipment data coding and decoding is completed in the access end of one Beidou positioning device, the access end of the Beidou positioning device receives the difference data of different Beidou positioning devices, the standard operation data is output (stored) after coding and decoding, the conversion from the difference to the common operation is realized, the concept of protocols is shielded for subsequent logic operation and inquiry operation of third-party application, and the multi-protocol integrated Beidou position service system has the advantages of improving efficiency and saving cost.

As fig. 1, during the concrete implementation, big dipper positioner incoming end includes:

the adaptive module is used for receiving data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module; in order to integrate multiple protocols, the Beidou positioning device access end isolates coding and decoding processes among different protocols based on adapter modes, one adapter assembly represents a set of complete coding and decoding processing flow, different types of Beidou positioning devices allocate different port numbers, and adapters matched with equipment are found according to port number routing. The input of the adapter is all original data uploaded by the Beidou positioning device, and the output of the adapter is standard operation data (namely database Bean) of a group of background management modules.

The decoding module is used for prestoring a plurality of types of decoders, calling the decoder corresponding to the device type to decode the data to be analyzed and obtain a data packet when the data to be analyzed and the device type are received, and sending the data packet to the storage module and the server side; the decoder is the most basic functional component used for processing the uploaded data in the access end of the Beidou positioning device. One decoder component functionally corresponds to the decoding process of a specific type of data packet in a specific protocol, such as the decoding of a login packet, a location packet, a heartbeat packet and the like, different data packets are different from the identifiers of other types of data packets, and the corresponding decoder component can be searched by routing according to the identifiers. The decoder inputs a device raw data packet and outputs a specific type of database Bean.

The storage module is used for receiving and storing the data packet;

and the coding module is used for prestoring a plurality of types of coders, editing the user inquiry instruction into a user inquiry signal which can be identified by the Beidou positioning device by using the coders when receiving the user inquiry instruction, and sending the user inquiry signal to the Beidou positioning device. The Beidou positioning device is the most basic functional component for processing the issue of instructions by the server side in the access end. An encoder component functionally corresponds to the encoding process of the type of command (command dto) issued by the server side, such as the encoding of positioning dto, operating mode dto, shutdown dto, and the like. Different instructions dto correspond to different function identifiers, and the corresponding encoder components can be routed according to the identifiers. The input of the encoder is of the type of an instruction dto at the server end, and the output is a binary byte code (user query signal) which can be recognized by the Beidou positioning device.

The invention realizes the componentization of a decoder, an encoder and a logic processor by taking the type of a data packet in a protocol as a unit; the automatic component scanning and sub-function assembly mechanism is matched with the intelligent component routing mechanism to completely decouple the realization of the whole service function, the high cohesion in the components and the low coupling between the components conform to the open and closed principle, and the subsequent function expansion and maintenance work is greatly reduced.

During specific implementation, the Beidou positioning device access end further comprises an alarm processing module for detecting whether various data in the data packet accord with an alarm threshold value, and if so, alarming is carried out.

During specific implementation, the Beidou positioning device access end is in wireless connection with the server end. The wireless connection mode is beneficial to simplifying the system structure, reducing the occupied area and improving the applicability. During specific implementation, the Beidou positioning device access end is electrically connected with the server end in any one of a 2G mode, a 3G mode, a 4G mode or a WIFI mode. The wireless transmission modes are developed more mature, and have the advantages of easy realization, lower cost and convenient maintenance, and the transmission efficiency and the safety are higher. However, the present invention is not limited to these radio connection methods, and may also be 5G, NFC (Near Field Communication), bluetooth or infrared connection methods, and the user may select the connection method according to factors such as distance.

In specific implementation, the data packet is any one of a position data packet, a heartbeat data packet, an electric quantity data packet or a blood pressure data packet. The data to be analyzed sent by the Beidou positioning device not only includes a position packet, but also includes one or more of a heartbeat data packet, an electric quantity data packet or a blood pressure data packet, and certainly, the data to be analyzed is not limited to the above.

As shown in fig. 2, a Beidou location service method based on multi-protocol integration implemented by the system in the embodiment includes the following steps:

s1, the access end of the Beidou positioning device receives data to be analyzed, which are sent by the Beidou positioning device, the data to be analyzed comprise the device type of the Beidou positioning device, and a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet; the data to be analyzed comprises various data packets such as a position packet, a heartbeat packet and a blood pressure packet collected by a Beidou positioning device (such as a mobile phone, an intelligent bracelet and the like).

S2, the Beidou positioning device access end stores the data packet and sends the data packet to the server end; the Beidou positioning device access end stores the data packet, so that subsequent use is facilitated.

S3, the server receives and stores the data packet; and the user can conveniently call and backup the management.

S4, the server end receives the user query instruction and sends the user query instruction to the Beidou positioning device access end;

s5, the Beidou positioning device access end receives the user query instruction, edits the user query instruction into a user query signal which can be identified by the Beidou positioning device and sends the user query signal to the Beidou positioning device. According to the type of the Beidou positioning device, the Beidou positioning device access end edits the user query instruction into a user query signal which can be identified by the Beidou positioning device, the purpose of sending the user query instruction to the Beidou positioning devices of different types is achieved, and the Beidou positioning device has the advantages of convenience in operation and high sending efficiency.

The multi-protocol integrated Beidou position service method of the embodiment utilizes a single-protocol single adapter mode to replace a single-protocol single application mode, the common operation of equipment data coding and decoding is completed in the access end of one Beidou positioning device, the access end of the Beidou positioning device receives the difference data of different Beidou positioning devices, and the standard operation data is output (stored) after coding and decoding, so that the conversion from the difference to the common is realized, the concept of a protocol is shielded for subsequent logic operation and inquiry operation of third-party application, and the method has the advantages of improving the efficiency and saving the cost.

During specific implementation, big dipper positioner access end includes adaptation module, decoding module, storage module and coding module, wherein:

the adaptation module receives data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module;

the decoding module prestores a plurality of types of decoders, and when data to be analyzed and the device type are received, the decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, and the data packet is sent to the storage module and the server side;

the storage module receives and stores the data packet;

the coding module prestores a plurality of types of coders, and when a user query instruction is received, the coder is used for editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device.

During specific implementation, the Beidou positioning device access end is in wireless connection with the server end. During specific implementation, the Beidou positioning device access end is electrically connected with the server end in any one of a 2G mode, a 3G mode, a 4G mode or a WIFI mode. The wireless transmission modes are developed more mature, and have the advantages of easy realization, lower cost and convenient maintenance, and the transmission efficiency and the safety are higher. However, the present invention is not limited to these radio connection methods, and may also be 5G, NFC (Near field communication), bluetooth or infrared, and the user may select the radio connection method according to factors such as distance.

In specific implementation, the data packet is any one of a position data packet, a heartbeat data packet, an electric quantity data packet or a blood pressure data packet. The data to be analyzed sent by the Beidou positioning device not only includes a position packet, but also includes one or more of a heartbeat data packet, an electric quantity data packet or a blood pressure data packet, and certainly, the data to be analyzed is not limited to the above.

The improvement in the above system embodiment also belongs to the improvement in the above method embodiment, and is not described in detail in the method embodiment.

For simplicity of explanation, the method embodiments are described as a series of acts or combinations, but those skilled in the art will appreciate that the embodiments are not limited by the order of acts described, as some steps may occur in other orders or concurrently with other steps in accordance with the embodiments of the invention. Further, those skilled in the art will appreciate that the embodiments described in the specification are presently preferred and that no particular act is required to implement the invention.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. The utility model provides a big dipper position service system of multiprotocol integration which characterized in that includes:

the Beidou positioning device access end is used for receiving data to be analyzed, which are sent by the Beidou positioning device, the data to be analyzed comprise the device type of the Beidou positioning device, a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, the data packet is stored, and the data packet is sent to the server end; the Beidou positioning device is also used for receiving a user query instruction, editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device;

the server side is used for receiving and storing the data packet; and the Beidou positioning device is also used for receiving a user query instruction and sending the user query instruction to the Beidou positioning device access end.

2. The multi-protocol integrated Beidou position service system according to claim 1, wherein the Beidou positioning device access end comprises:

the adaptive module is used for receiving data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module;

the decoding module is used for prestoring a plurality of types of decoders, calling the decoder corresponding to the device type to decode the data to be analyzed and obtain a data packet when the data to be analyzed and the device type are received, and sending the data packet to the storage module and the server side;

the storage module is used for receiving and storing the data packet;

and the coding module is used for prestoring a plurality of types of coders, editing the user inquiry instruction into a user inquiry signal which can be identified by the Beidou positioning device by using the coders when receiving the user inquiry instruction, and sending the user inquiry signal to the Beidou positioning device.

3. The multi-protocol integrated Beidou position service system according to claim 2, wherein the Beidou positioning device access end is in radio connection with the server end.

4. The multi-protocol integrated Beidou position service system according to claim 3, wherein the Beidou positioning device access end is electrically connected with the server end in any one of a 2G mode, a 3G mode, a 4G mode and a WIFI mode.

5. The multi-protocol integrated Beidou location services system according to claim 4, wherein the data packet is any one of a location data packet or a heartbeat data packet or an electric quantity data packet or a blood pressure data packet.

6. A multi-protocol integrated beidou location service method implemented based on the system of claim 1, comprising the following steps:

the Beidou positioning device access end receives data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and a prestored decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet;

the Beidou positioning device access end stores the data packet and sends the data packet to the server end;

the server receives and stores the data packet;

the server side receives a user query instruction and sends the user query instruction to the Beidou positioning device access end;

the Beidou positioning device access end receives the user query instruction, edits the user query instruction into a user query signal which can be identified by the Beidou positioning device, and sends the user query signal to the Beidou positioning device.

7. The multi-protocol integrated Beidou position service method according to claim 6, wherein the Beidou positioning device access end comprises an adaptation module, a decoding module, a storage module and an encoding module, wherein:

the adaptation module receives data to be analyzed sent by the Beidou positioning device, the data to be analyzed comprises the device type of the Beidou positioning device, and the data to be analyzed and the device type are sent to the decoding module;

the decoding module prestores a plurality of types of decoders, and when data to be analyzed and the device type are received, the decoder corresponding to the device type is called to decode the data to be analyzed to obtain a data packet, and the data packet is sent to the storage module and the server side;

the storage module receives and stores the data packet;

the coding module prestores a plurality of types of coders, and when a user query instruction is received, the coder is used for editing the user query instruction into a user query signal which can be identified by the Beidou positioning device and sending the user query signal to the Beidou positioning device.

8. The multi-protocol integrated Beidou position service method according to claim 7, wherein the Beidou positioning device access end is in radio connection with the server end.

9. The multi-protocol integrated Beidou position service method according to claim 8, wherein the Beidou positioning device access end is electrically connected with the server end in any one of a 2G mode, a 3G mode, a 4G mode and a WIFI mode.

10. The multi-protocol integrated Beidou location services method according to claim 9, wherein the data packet is any one of a location data packet or a heartbeat data packet or an electric quantity data packet or a blood pressure data packet.

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